JPH01227350A - Locking mechanism of battery - Google Patents

Abstract

PURPOSE:To make a locking mechanism of a battery compact and to efficiently, surely arrange it in a limited space by linking a battery's cover opening-closing mechanism with the battery locking mechanism. CONSTITUTION:Before completing the insertion of a battery 60, the shoulder 60A comes in contact with the lower end 26B of a sliding lever 26, and the lever 26 moves upward along pins 30, 30. The upper end 26A of the lever 26 comes in contact with one end lever 32A of a locking lever 36, and a lever 32 turns clockwise against the lever 36. A battery lock 40 is fitted to a recess 60B formed in the battery 60 to lock the battery. A locking claw 46 locks a pin 50 of the lever 32. When the battery is removed, an ejection button 38 is moved rightward to unlock the locking claw 46. The locking mechanism of a battery is efficiently, surely arranged in a limited space and it is made compact.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a battery locking mechanism, and particularly relates to a locking mechanism for a battery. The present invention relates to a locking mechanism for a battery equipped with a battery cover.

[Conventional technology]

Recently, imaging devices such as solid-state image sensors and image pickup tubes have been combined with recording devices that use magnetic disks, which are inexpensive and have a relatively large storage capacity, to electronically take still photographs of subjects. A separate television system has been developed that records images on a disc and plays them back, and is attracting attention.

In electronic still cameras used in such television systems, a magnetic disk serving as a magnetic recording medium is rotated at high speed, and in this state a video signal is recorded on an annular track of the magnetic disk by a magnetic head. Therefore, a power source is required for the motor that rotates the magnetic disk at high speed. Furthermore, in electronic still cameras,
Like other general cameras, a power source is required for driving parts such as lens drive and shutter drive, and such power is provided by a removable battery installed in the grip of the camera body.

[Problem that the invention seeks to solve]

Usually, the battery of such an electronic still camera is installed by opening the battery cover at the bottom of the battery case formed inside the grip part.

Furthermore, once the battery is inserted into the battery case, it needs to be locked in the inserted state to prevent it from being accidentally removed from the battery. The battery cover opening/closing mechanism and the battery locking mechanism are often located close to each other (it is difficult to arrange them in a camera or other device with limited space, so a structure that combines the two in a compact manner is desirable). .

The present invention has been made in view of the above circumstances, and an object of the present invention is to propose a battery locking mechanism that compactly combines a battery cover opening/closing mechanism and a battery locking mechanism.

[Means for solving problems]

The present invention provides a battery lid that is pivotally supported in the battery insertion slot of a battery case and is pushed by the battery and stored inside the battery when the battery is inserted, and a battery lid that is pivotally supported by the battery lid and is slidable in the battery insertion direction. A slide member that is pushed by the battery and moves in the battery insertion direction just before the battery is inserted, a battery lock member that locks the battery when the battery is fully inserted, and a battery lock member that is pivotably supported on the main body of the camera etc. , a rocking lever with one end in contact with the movable member and the other end connected to the battery locking member, and a locking claw that is pivotally supported by the main body of the camera, etc., and one end of which locks the rocking lever when the battery is fully inserted. and an eject member that is connected to the other end of the lock pawl and that, when operated, unlocks the rocking lever of the lock pawl and retracts the battery lock member from the battery.

[Effect]

In the present invention, the opening/closing mechanism of the battery cover and the locking mechanism of the battery are linked, so that it can be placed in a limited space such as a camera.

〔Example〕

Hereinafter, preferred embodiments of the battery locking mechanism according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 shows the external appearance of an electronic still camera according to the present invention, in which a photographing lens barrel 12 is provided on the front surface of a camera body 10, and a finder 14 is further provided on the top surface of the main body 10. A magnetic disk loading device 16 is provided on the back of the main body 10. Although the magnetic disk loading device 16 is not shown in detail,
By opening the lid 16A, a magnetic disk can be loaded into a packet (not shown).
By closing 6A, the magnetic disk of the magnetic disk back is connected to a drive shaft (not shown), and magnetic recording and reproduction are performed by the magnetic head. A grip B18 is formed on the right side of the camera body 10 in FIG. 1, and a battery case 20 is formed inside this grip portion 18.

A battery cover 22 is attached to the lower surface of the battery case 20 so as to be openable and closable, and the structure around the battery cover 220 is shown in detail in FIG.

That is, the battery cover 22 is rotatably supported by the lower end of the slide lever 26 via the shaft 24. The battery cover 22 is moved in the opening direction (
A stopper 12O is biased in the counterclockwise direction), and its tip 22A is formed at the center of the battery case 20.
By coming into contact with A, it is held in the closed position when the battery is not inserted.

On the other hand, the slide lever 26 provided on the side of the battery case 20 has an elongated hole 28.28 formed in the vertical direction, and a guide bin 30.30 is fitted into the elongated hole 28.28. 26 is guided by the guide pins 30 and 30 and is movable in the vertical direction in FIG. 2, that is, in the battery insertion direction.

On the other hand, the swinging lever 32 moves the camera body 10 around the shaft 34.
It is pivotally supported by and biased counterclockwise by a spring 36. One end 32A of this swing lever 32 is in contact with the upper end 26A of the slide lever 26.

A long hole 42.42 is formed in the battery lock member 40 for mooring the battery inside the battery case 20, and a pin 4 from the camera body side is inserted into the long hole 42.42.
4.44 is inserted.

Therefore, the battery lock member 40 is attached to this guide pin 4.
4.44, and can move left and right on FIG. A pin 52 is installed in the battery lock member 40, and the pin 52 is located in a long hole 54 formed at the other end of the swing lever 32. Therefore, when the swinging lever 32 is swung, the battery locking member 40 moves in the left-right direction and moves toward and away from the battery.

A second eject button 30 is located on the bottom of the camera body 10.
It is provided so as to be slidable in the left and right directions in the figure.

Further, a lock claw 46 for locking the swing lever is rotatably supported by the camera body 10 about a shaft 48, and a spring 49
is biased clockwise.

As will be described later, one end of the lock pawl 46 locks when the swing lever 32 is rotated clockwise by inserting the battery.
The pivot lever 32 is engaged with a pin 50 installed in the pivot lever 2 to lock the swing lever 32.

The other end of the lock claw 46 is connected to the eject button 30 via a pin 51. Therefore, when the eject button 30 is operated, the lock claw 460 is unlocked.

Note that a spring 56 for pushing out the battery is disposed on the upper surface of the battery case 20.

The operation of the embodiment of the battery locking mechanism according to the present invention constructed as described above is as follows.

First, if you have not inserted the battery 60 yet,
The battery cover 22 is closed as shown in FIG. 2 by the biasing force of a spring 25 to prevent dust and the like from entering the battery case.

Next, when the battery 60 is inserted into the battery case 20 as shown in FIG.
The battery case 20 rotates clockwise against the biasing force of the battery case 20, and is housed in a recess 20B formed on the right side of the battery case 20, as shown in the figure. Just before the insertion of the battery 60 is complete, the shoulder 60A formed on the battery 60 comes into contact with the lower end 26B of the slide lever 26. When the battery 60 is further inserted in this state, the slide lever 26 move upwards guided by.

When the slide lever 26 moves upward, the upper end 26A of the slide lever 26 and the one end 32A of the swing lever 36 come into contact, so that the swing lever 32 is moved by the spring 3.
It is rotated clockwise against the urging force of 6. When the swing lever 32 is rotated clockwise, since the swing lever 32 and the battery lock member 40 are connected via the pin 52, the battery lock member 40 moves to the left, that is, toward the battery 60. , the battery 60 is inserted into the recess SOB formed in the battery 60 as shown in FIG.
lock. At this time, the lock claw 46 locks the pin 50 of the swing lever 32, and locks the battery lock member 40 so that it does not move due to the biasing force of the spring 36. This state is shown in FIG. 4, where the battery 60 is completely inserted into the battery storage case 20 and the power source is ready for use.

Next, the operation for removing the battery 60 will be explained.

First, when the eject button 38 is moved to the right side in the figure, the eject button 38 and the lock claw 46 are connected to the pin 51.
Since the lock claw 46 rotates counterclockwise about the shaft 48, the swing lever 320 is unlocked. As a result, the swing lever 32 becomes free and is rotated counterclockwise by the biasing force of the spring 36. When the swing lever 32 rotates counterclockwise, the battery locking member 40 connected via the pin 52 also moves away, unlocking the battery. At the same time, one end 3 of the swing lever 32
2A pushes down the slide lever 26, which also pushes the battery cover 22 downward to the position shown in FIG. 3. When the battery cover 60 is removed, the battery 22 is rotated counterclockwise by the spring 25. , the position shown in FIG. 2 is reached, and the insertion opening of the battery case 20 is closed.

〔Effect of the invention〕

As explained above, according to the battery locking mechanism according to the present invention, by linking the battery lid storage mechanism and the battery locking mechanism, the two mechanisms can be made compact.

[Brief explanation of the drawing]

FIG. 1 is a perspective view from the back of an electronic still camera to which the battery locking mechanism according to the present invention is applied, FIG. 2 is a sectional view showing the battery lid storage mechanism and the battery locking mechanism, and FIG. 31! I is a cross-sectional view showing the battery being inserted or pulled out, and FIG. 4 is a cross-sectional view showing the battery fully inserted. 10... Electronic still camera body, 20... Battery case, 22... Battery lid, 26.
...slide lever, 32...swing lever,
38...Eject button, 40...Battery lock member, 46...Lever lock claw.

Claims (1)

[Claims] A battery lid that is pivotally supported in the battery insertion slot of the battery case and is pushed by the battery and stored inside the battery when the battery is inserted, and a battery lid that pivotally supports the battery lid and slides in the battery insertion direction. A slide member that is movable and moves in the battery insertion direction when pushed by the battery just before the battery is inserted, a battery lock member that locks the battery when the battery is fully inserted, and a shaft that swings freely around the body of the camera, etc. A swinging lever that is supported, one end abuts a movable member, and the other end connected to a battery locking member, and a swinging lever that is supported pivotably on the main body of a camera, etc., and one end of which locks the swinging lever when the battery is fully inserted. A battery locking mechanism comprising: a locking pawl; and an ejecting member connected to the other end of the locking pawl to unlock a swinging lever of the locking pawl and evacuate the battery locking member from the battery when operated.